use regex::{Match, Regex};
use std::borrow::Cow;
use std::io::Write;
use crate::errors::Result;
use crate::histogram::BUCKET_LABEL;
use crate::proto::{self, MetricFamily, MetricType};
use super::{check_metric_family, Encoder};
pub const TEXT_FORMAT: &str = "text/plain; version=0.0.4";
const POSITIVE_INF: &str = "+Inf";
const QUANTILE: &str = "quantile";
#[derive(Debug, Default)]
pub struct TextEncoder;
impl TextEncoder {
pub fn new() -> TextEncoder {
TextEncoder
}
}
impl Encoder for TextEncoder {
fn encode<W: Write>(&self, metric_families: &[MetricFamily], writer: &mut W) -> Result<()> {
for mf in metric_families {
check_metric_family(mf)?;
let name = mf.get_name();
let help = mf.get_help();
if !help.is_empty() {
writer.write_all(b"# HELP ")?;
writer.write_all(name.as_bytes())?;
writer.write_all(b" ")?;
writer.write_all(escape_string(help, false).as_bytes())?;
writer.write_all(b"\n")?;
}
let metric_type = mf.get_field_type();
let lowercase_type = format!("{:?}", metric_type).to_lowercase();
writer.write_all(b"# TYPE ")?;
writer.write_all(name.as_bytes())?;
writer.write_all(b" ")?;
writer.write_all(lowercase_type.as_bytes())?;
writer.write_all(b"\n")?;
for m in mf.get_metric() {
match metric_type {
MetricType::COUNTER => {
write_sample(writer, name, None, m, None, m.get_counter().get_value())?;
}
MetricType::GAUGE => {
write_sample(writer, name, None, m, None, m.get_gauge().get_value())?;
}
MetricType::HISTOGRAM => {
let h = m.get_histogram();
let mut inf_seen = false;
for b in h.get_bucket() {
let upper_bound = b.get_upper_bound();
write_sample(
writer,
name,
Some("_bucket"),
m,
Some((BUCKET_LABEL, &upper_bound.to_string())),
b.get_cumulative_count() as f64,
)?;
if upper_bound.is_sign_positive() && upper_bound.is_infinite() {
inf_seen = true;
}
}
if !inf_seen {
write_sample(
writer,
name,
Some("_bucket"),
m,
Some((BUCKET_LABEL, POSITIVE_INF)),
h.get_sample_count() as f64,
)?;
}
write_sample(writer, name, Some("_sum"), m, None, h.get_sample_sum())?;
write_sample(
writer,
name,
Some("_count"),
m,
None,
h.get_sample_count() as f64,
)?;
}
MetricType::SUMMARY => {
let s = m.get_summary();
for q in s.get_quantile() {
write_sample(
writer,
name,
None,
m,
Some((QUANTILE, &q.get_quantile().to_string())),
q.get_value(),
)?;
}
write_sample(writer, name, Some("_sum"), m, None, s.get_sample_sum())?;
write_sample(
writer,
name,
Some("_count"),
m,
None,
s.get_sample_count() as f64,
)?;
}
MetricType::UNTYPED => {
unimplemented!();
}
}
}
}
Ok(())
}
fn format_type(&self) -> &str {
TEXT_FORMAT
}
}
fn write_sample(
writer: &mut dyn Write,
name: &str,
name_postfix: Option<&str>,
mc: &proto::Metric,
additional_label: Option<(&str, &str)>,
value: f64,
) -> Result<()> {
writer.write_all(name.as_bytes())?;
if let Some(postfix) = name_postfix {
writer.write_all(postfix.as_bytes())?;
}
label_pairs_to_text(mc.get_label(), additional_label, writer)?;
writer.write_all(b" ")?;
writer.write_all(value.to_string().as_bytes())?;
let timestamp = mc.get_timestamp_ms();
if timestamp != 0 {
writer.write_all(b" ")?;
writer.write_all(timestamp.to_string().as_bytes())?;
}
writer.write_all(b"\n")?;
Ok(())
}
fn label_pairs_to_text(
pairs: &[proto::LabelPair],
additional_label: Option<(&str, &str)>,
writer: &mut dyn Write,
) -> Result<()> {
if pairs.is_empty() && additional_label.is_none() {
return Ok(());
}
let mut separator = b"{";
for lp in pairs {
writer.write_all(separator)?;
writer.write_all(lp.get_name().as_bytes())?;
writer.write_all(b"=\"")?;
writer.write_all(escape_string(lp.get_value(), true).as_bytes())?;
writer.write_all(b"\"")?;
separator = b",";
}
if let Some((name, value)) = additional_label {
writer.write_all(separator)?;
writer.write_all(name.as_bytes())?;
writer.write_all(b"=\"")?;
writer.write_all(escape_string(value, true).as_bytes())?;
writer.write_all(b"\"")?;
}
writer.write_all(b"}")?;
Ok(())
}
fn escape_string(v: &str, include_double_quote: bool) -> Cow<'_, str> {
lazy_static! {
static ref ESCAPER: Regex = Regex::new("(\\\\|\n)").expect("Regex to be valid.");
static ref QUOTED_ESCAPER: Regex = Regex::new("(\\\\|\n|\")").expect("Regex to be valid.");
}
let first_occurence = if include_double_quote {
QUOTED_ESCAPER.find(v)
} else {
ESCAPER.find(v)
}
.as_ref()
.map(Match::start);
if let Some(first) = first_occurence {
let mut escaped = String::with_capacity(v.len() * 2);
escaped.push_str(&v[0..first]);
let remainder = v[first..].chars();
for c in remainder {
match c {
'\\' | '\n' => {
escaped.extend(c.escape_default());
}
'"' if include_double_quote => {
escaped.extend(c.escape_default());
}
_ => {
escaped.push(c);
}
}
}
escaped.shrink_to_fit();
escaped.into()
} else {
v.into()
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::counter::Counter;
use crate::gauge::Gauge;
use crate::histogram::{Histogram, HistogramOpts};
use crate::metrics::{Collector, Opts};
#[test]
fn test_escape_string() {
assert_eq!(r"\\", escape_string("\\", false));
assert_eq!(r"a\\", escape_string("a\\", false));
assert_eq!(r"\n", escape_string("\n", false));
assert_eq!(r"a\n", escape_string("a\n", false));
assert_eq!(r"\\n", escape_string("\\n", false));
assert_eq!(r##"\\n\""##, escape_string("\\n\"", true));
assert_eq!(r##"\\\n\""##, escape_string("\\\n\"", true));
assert_eq!(r##"\\\\n\""##, escape_string("\\\\n\"", true));
assert_eq!(r##"\"\\n\""##, escape_string("\"\\n\"", true));
}
#[test]
fn test_text_encoder() {
let counter_opts = Opts::new("test_counter", "test help")
.const_label("a", "1")
.const_label("b", "2");
let counter = Counter::with_opts(counter_opts).unwrap();
counter.inc();
let mf = counter.collect();
let mut writer = Vec::<u8>::new();
let encoder = TextEncoder::new();
let txt = encoder.encode(&mf, &mut writer);
assert!(txt.is_ok());
let counter_ans = r##"# HELP test_counter test help
# TYPE test_counter counter
test_counter{a="1",b="2"} 1
"##;
assert_eq!(counter_ans.as_bytes(), writer.as_slice());
let gauge_opts = Opts::new("test_gauge", "test help")
.const_label("a", "1")
.const_label("b", "2");
let gauge = Gauge::with_opts(gauge_opts).unwrap();
gauge.inc();
gauge.set(42.0);
let mf = gauge.collect();
writer.clear();
let txt = encoder.encode(&mf, &mut writer);
assert!(txt.is_ok());
let gauge_ans = r##"# HELP test_gauge test help
# TYPE test_gauge gauge
test_gauge{a="1",b="2"} 42
"##;
assert_eq!(gauge_ans.as_bytes(), writer.as_slice());
}
#[test]
fn test_text_encoder_histogram() {
let opts = HistogramOpts::new("test_histogram", "test help").const_label("a", "1");
let histogram = Histogram::with_opts(opts).unwrap();
histogram.observe(0.25);
let mf = histogram.collect();
let mut writer = Vec::<u8>::new();
let encoder = TextEncoder::new();
let res = encoder.encode(&mf, &mut writer);
assert!(res.is_ok());
let ans = r##"# HELP test_histogram test help
# TYPE test_histogram histogram
test_histogram_bucket{a="1",le="0.005"} 0
test_histogram_bucket{a="1",le="0.01"} 0
test_histogram_bucket{a="1",le="0.025"} 0
test_histogram_bucket{a="1",le="0.05"} 0
test_histogram_bucket{a="1",le="0.1"} 0
test_histogram_bucket{a="1",le="0.25"} 1
test_histogram_bucket{a="1",le="0.5"} 1
test_histogram_bucket{a="1",le="1"} 1
test_histogram_bucket{a="1",le="2.5"} 1
test_histogram_bucket{a="1",le="5"} 1
test_histogram_bucket{a="1",le="10"} 1
test_histogram_bucket{a="1",le="+Inf"} 1
test_histogram_sum{a="1"} 0.25
test_histogram_count{a="1"} 1
"##;
assert_eq!(ans.as_bytes(), writer.as_slice());
}
#[test]
fn test_text_encoder_summary() {
use crate::proto::{Metric, Quantile, Summary};
use std::str;
let mut metric_family = MetricFamily::default();
metric_family.set_name("test_summary".to_string());
metric_family.set_help("This is a test summary statistic".to_string());
metric_family.set_field_type(MetricType::SUMMARY);
let mut summary = Summary::default();
summary.set_sample_count(5.0 as u64);
summary.set_sample_sum(15.0);
let mut quantile1 = Quantile::default();
quantile1.set_quantile(50.0);
quantile1.set_value(3.0);
let mut quantile2 = Quantile::default();
quantile2.set_quantile(100.0);
quantile2.set_value(5.0);
summary.set_quantile(from_vec!(vec!(quantile1, quantile2)));
let mut metric = Metric::default();
metric.set_summary(summary);
metric_family.set_metric(from_vec!(vec!(metric)));
let mut writer = Vec::<u8>::new();
let encoder = TextEncoder::new();
let res = encoder.encode(&vec![metric_family], &mut writer);
assert!(res.is_ok());
let ans = r##"# HELP test_summary This is a test summary statistic
# TYPE test_summary summary
test_summary{quantile="50"} 3
test_summary{quantile="100"} 5
test_summary_sum 15
test_summary_count 5
"##;
assert_eq!(ans, str::from_utf8(writer.as_slice()).unwrap());
}
}